Transforming Urine into Water: Astronauts to Install New Space Station Water System

Nov 15, 2008

NASA&acutes new Water Recovery System will make it possible to double to six the number of crewmembers who can live aboard the International Space Station. Michigan Tech researchers helped optimize the design, increasing its efficiency by 30 percent. [NASA Marshall Space Flight Center (NASA-MSFC)]

Two hundred and fifty miles above the Earth puts you a long way from the nearest kitchen tap. And at $10,000 a pint, the cost of shipping fresh water aboard the space shuttle is, well, astronomical.

So astronauts on the International Space Station have to recapture every possible drop. That includes water evaporated from showers, shaving, tooth brushing and hand washing, plus perspiration and water vapor that collects within the astronauts' space suits. They even transfer water from the fuel cells that provide electric power to the space shuttle.

Until now, however, NASA has not attempted to tap one major potential source of water: urine. That will soon change with the deployment of the new Water Recovery System. It departed Friday, Nov. 14, from the Kennedy Space Center on the Space Shuttle Endeavor.

The Water Recovery System, made possible in part by researchers at Michigan Technological University, can transform ordinary pee into water so pure it rivals the cleanest on Earth.

David Hand was the lead researcher on the project, which ran from 1993 to 1997 at Tech. It was a memorable time. "We received jars of sweat from NASA," he said. "Then we did experiments on the system, measured it at every step, evaluated it and made recommendations."

Under the new system, urine undergoes an initial distillation process and then joins the rest of the recovered fluids in the water processor. The processor filters out solids such as hair and lint and then sends the wastewater through a series of multifiltration beds, in which contaminants are removed through adsorption and ion exchange.

"What's left over in the water are a few non adsorbing organics and solvents, like nail polish remover, and they go into a reactor that breaks them all down to carbon dioxide, water and a few ions," said Hand, a professor of civil and environmental engineering.

After a final check for microbes, the water is again clean and ready to drink.

NASA's Layne Carter, the Water Recovery System lead engineer at Marshall Spaceflight Center in Huntsville, Ala., credits Hand and the rest of the Tech research team with making the system as good as it is. "Without a doubt, if it hadn't been for their modeling effort, we never would have been able to redesign the multifiltration beds and achieve that level of efficiency," Carter said. "They did a fantastic job."

Using mathematical models, the Tech researchers helped improve the overall design of the multifiltration beds, The redesigned beds have 30 percent more capacity, which means that NASA doesn't have to send about 60 pounds of additional supplies up to the space station annually. "That may seem trivial, but it saves NASA about $600,000 each year," Carter said.

Related Stories

(AP)—Spacewalking astronauts successfully completed a three-day cable job outside the International Space Station on Sunday, routing several-hundred feet of power and data lines for new crew capsules commissioned ...

For years, Arlin Crotts has been an iconoclast among his peers in the world of lunar science. His beliefs that the moon must have water and could possibly supply all the elements necessary to sustain life ...

Like a cowboy at a rodeo, NASA's newest Earth-observing satellite, the Soil Moisture Active Passive (SMAP), has triumphantly raised its "arm" and unfurled a huge golden "lasso" (antenna) that it will soon ...

A quasar is what you get when a supermassive black hole is actively feeding on material at the core of a galaxy. The region around the black hole gets really hot and blasts out radiation that we can see billions ...

Several days after Rosetta's close flyby of comet 67P/Churyumov-Gerasimenko on 14 February 2015, images taken on this day by OSIRIS, the scientific imaging system on board, have now been downlinked to Earth. ...

Like coins, most comet have both heads and tails. Occasionally, during a close passage of the Sun, a comet's head will be greatly diminished yet still retain a classic cometary outline. Rarely are we left ...

This week marked the completion of an important step on the path to spacecraft assembly, test, and launch operations for the Origins Spectral Interpretation Resource Identification Security Regolith Explorer ...

NASA's Dawn spacecraft has returned new images captured on approach to its historic orbit insertion at the dwarf planet Ceres. Dawn will be the first mission to successfully visit a dwarf planet when it enters ...

why not just capture the solar wind...there should be plenty of hydrogen and perhaps even some oxygen ( or we could just recycle the oxygen on the space ship, to creat ample amounts of water from outerspace without having to deal with urine. would purifying urine be more difficult than trapping and recovering hyrdrogen from the solar wind?